Vegetable bunching and wrapping apparatus



Aug. 1o, 1954 i R. M. MAGNUSON ET AL AVEGETABLE BUNCHING AND WRAPPING APPARATUS 8 Sheets-Sheet l Filed April 426, 1949 .WW l www, I

IN VEN TOR .5 /V/z ro/v en/oww BY Por MMM/vasen Aug. 10, 1954 R. M. MAGNUsoN ET Al.

VEGETABLE BUNCHING AND WRAPPING APPARATUS Filed April 2e, 1949 8 Sheets-Sheet 2 Aug. l0, 1954 R. M. MAGNUSON ET AL VEGETABLEBUNCHING AND wRAPPING APPARATUS Filed April 2e, 1949 8 Sheets-Sheet 3 Aug. 10, 1954 R. M. MAGNUsoN E'rAL 2,685,771

YEGETABLE BUNCHING AND WRAPPING APPARATUS Filed April 2e, 1949 v s sheets-sheet 4 IN VEN TOR.l /VM 70A/ .0. a/vom/v By Pay M /VA 6AM/50N Aug. 10, 195.4 A R.M. MAGNusoN .rs1-Ax. 2,685,771

VEGETABLE VBUNCHING AND WRAPPINGl APBARATUS Filed 4Apriles. 1949 8 sheds-sheet 5 Aug- 10, 1954 u R. M. MAGNUsoN Erm. 2,68m5,771

YECETABL'BUNCHING AND WRAPPING APPARATUS Filed April 26, 1949 -8 Sheets-Sheet 6 Ffa/0 Aug. 10, 1954 R. M. MAGNusoN ET AL VEGETABLE BUNCHING AND WRAPPING APPARATUS 8 sheets-.Stiga 7 Filed April 26. 1949 Patented ug. 10, 195.4

UNITED STATES eareNT orrifsli VEGETABLE BUNCHING AND`WRAPPING APPARATUS Roy M. Magnuson, Campbell, and Milton D. Donovan, LosGatos, Calif., assignors, by direct and mesne assignments, to yStephen .DArrigo Application April V.26, 1949,Serial No. 89.584

18 g Claims.

Accordingly, the .general Yobject of 4the inven.

tion is to `provide automatic bunching and wrapping equipment whereby a .succession of bunches of broccoli or similar vegetable Yarticles .can be carried through the equipment .and have ,a wrap applied thereto ina :secure fashion. It is preferred to apply .a wrap or tie in the form of a heat sealing tape so that the securing of the wrap in place can be effected by -heat sealing operation.

Other objects and .advantages of the invention will be apparent from the following .description of a preferred embodiment .thereof as .illustrated in the .accompanying drawings, in which:

Figure `1 is a .schematic plan view of the apparatus.

Figure 2, vconipised of sections 2c, 2band12c, is an enlarged plan view of the activev end of the wrapping unit of the apparatus.

lFigure 3 is a vertical sectional YView 'taken as indicated by the line,3 3 in Fig-ure 2b..

Figure 4 is a sectional View taken as'indicated by the line 4 4 inFigure 3.

Figure 5 is a sectional view taken as indicated by the line 5 5 in Figure 4.

Figure 6 is a plan View of an individual wrapping unit or pocket structure.

Figure '7 is a vertical sectional View of a part of a wrapping unit taken as indicated -by the line V1 1 in Figure 6.

Figure 8 is a Verticalsectional View .taken as indicated by the line 8 8 in Figurei.

Figure 9 is a fragmentary sectional View taken as indicated by the line .9 9 in Figure 2b.

Figure 10 is an `elevational View of the means for impaling the paper or wrapping-material on each .wrapping unit Vtaken generallyas indicated 2 tape feed mechanism taken as indicated by the line -I3 t in Figure 12.

Figure 14 is a vertical sectional view of the tape feed mechanism taken as indicated -fby the line M 4 in Figure 2a. l

Figure 15 is an enlarged View illustrating th knife construction for perforating the tape.

Figure 16 is a horizontal sectional View taken.

as lindicated by .the line lS l.5 in Figure 1'2.

Figure 17 is an enlarged plan View of one of the heater .units of the heat sealing element illus!-Y trating its mounting.

Figure 18`is a vertical sectional View of the heater Aunit of Figure 17, its relation .to theap-` .paratus being shown by the line iB lin Fig.-

ure 2c.

FigurelS is an enlarged plan View of one -of the support elements for the heater strip.

Figure 20 is a vertical .sectional View .of .the support elementshown in Figure 19, its relation to .the .general Aapparatus .being indicated vby the line v2 (3 2 drin Figure 2c.

Referring `to Figure '1, there is shown sche.- matically apparatus .embodying the invention ine cluding a broccoli bunching unit of the general type `disclosed and claimed in .the copendingapplication of Roy M. Magnuson and Ralph Daugherty, Serial No. 47,856, ledseptember. 4, 1948, for Vegetable Packing Method .and Apparatus. This bunching .unit includes Aan endless series of pockets 2! carried by suitable conveyor chains ytrained about a drive sprocket 22 andan idler sprocket 23 above a circulating conveyor 2:4 on :which the broccoli to be hunched is placed. The path of travel of the bunching pockets .2l as indicated in .Figure 1 is generally Acounterclockwise yand they pass in lopen position through a feeding area indicated at A. At this :feedingarea or station, the proper .amount of broccoli fis placed in each pocket by operators so that the pockets are forced .iimvardly and grasp the bunch nrmly and compact it. The bunches in, the pockets `2| are then carried past-abutt trimming saw 25, as disclosed in said application, and.

thereafter the trimmed bunches `are carried Iinto operative relation with respect .to the wrapping unit :2l which comprises an endless series .of wrapping pockets 2.8 carried by anendlesslconveyor tr'ainedabout a drive sprocket 29 and-an idler .sprocket 3l, the vdrive being transmitted to the sprocket 29 by means of a suitable-chain and sprocket drive connection 32 from the drive or the sprocket 22 of the bunching unit. In this way the `bunching and wrapping units are driven in=timed-relationtoeach-other.

The arrangement of the bunching unit with respect to the wrapping unit is such that the pockets 2| and 28 along their adjacent stretches travel in vertically overlapped aligned relation and at the same rate of speed. As later described, as the wrapping units travel in a generally clockwise direction as indicated in Figure l, they engage a strip or tape of suitable heat sealing material such as moisture proof cellophane or coated paper from a tape feed unit 33 described later in detail. The feed unit 33 is operated in conjunction with the wrapping pockets 28 to perforate the strip 3G from the supply roll 36 in timed relation to the progress of the pockets and to their relative separation in travelling around the sprocket 29 so that the perforaticns are spaced apart corresponding to the desired length of wrap for each bunch of broccoli.

Broccoli wrapping unit In Figures 2a to 2c and 3, the bunch wrapping unit comprises a suitable frame or" structural material including an upper series of transverse angles 4| and a lower series of transverse angles 42. Each of the upper and lower series of transverse angles 4| and 42 is suitably supported on vertical frame pieces 43 and provide supports for respective upper and lower tracks eli and 46 along the straight stretches of travel of the wrapping pockets as seen more clearly in Figure 3. Certain of the lower angles f5.2 are extended, as seen in Figure 3, to provide support for a cam track 4l for controlling the pocket position, as later described, and a cam track i8 operative in conjunction with pickup of the wrapping material, also as later described.

Each wrapping pocket or element comprises a support plate 5| (Figures 3 and 6) which is engaged within the track 44 at its lower edge and carries spaced rollers 52 for engagement with the lower track 45. It will be understood that the tracks il and i6 are coincident with the straight stretches of the wrapping unit, one of which coincides with the adjacent stretch of the bunching unit as shown in Figure 1 and do not extend otherwise around the machine. Each plate 5| (Figure 3) also carries a support bracket 54, to which is secured one side of a link of a conveyor chain 55 (Figures 2a and 3). Rollers 53 are provided on the chain 55 for engagement with the drive sprocket 2Q and the idler sprocket 23 for progression in timed relation of the wrapping pockets as they travel through their path.

The carrier plate 5| is apertured to receive a support tube 57 (Figures 2a, 3 and 6) which receives telescopically a support rod 58 having opposite pins 58a engaged with longitudinal slots 5'a in the support tube 51.

At its outer end the support rod 58 (Figures 3, 6 and 7) carries a vertical frame plate 5| of the wrapping unit secured thereon by a nut E2. A pair of springs B3 extend between the respective sides of the plate 6| and pins E4 adjacent the rear of the tube 51. The springs 63 tend to collapse the plate '6| toward the plate 5| for a purpose later described.

Secured to the plate 6| by welding is a horizontal frame plate 65 having a depending U-shaped bracket E8 secured thereto, A vertical bracing strip B1 is welded or otherwise secured between the plates 6|, 66 and the bracket 58. The plate 5| (Figures 3, 6 and 7) carries a pair of spaced rollers 'H for engagement with the horizontal flange of the L-shaped cam track i8 to maintain the frame plate 66 in a horizontal position during its travel through the wrapping path in which the pockets 28 and 2| are overlapped.

In order to control the contracted and expanded condition of the Wrapping pockets 28, the horizontal frame plate 636 of each pocket (Figures 5 and 8) has secured therein a vertical stud 16 which extends through the bracket 58 and on which a roller 1T is journalled for engagement with the cani track 41. As seen at the right-hand portion of Figure 2a., the pocket units 28 are collapsed, that is, the plates 5| and (il are adjacent to each other, being held in this position by the springs (i3. As the roller ll oi a pocket engages the track 4l, seen at the third unit from the left in Figure 2a, the cam track 4l expands the wrapping unit to the position of the unit second from the left in Figure 2a to bring it into cooperative relation with the paper or wrapping strip 34.

Each pocket contains a paper pickup and holding mechanism in the form of a vertical plate 8| (Figures 3, 4 and 6) carrying a pair of paper impaling pins or spikes 82. The plate 8| is supported by an upright bar 83 on a horizontal rectangular support rod 86. As seen in Figure 3, the pickup plate 8| is provided with oilset notches Bla at its upper and lower portions for a purpose later described. The support bar 813 (Figure e) is slidably mounted in a tube portion B6 of a T-shaped mounting lever 85, being yieldably held in extended position thereto by a spring 31 housed within the tube portion 86. The T-shaped support lever 85 is pivoted by means of a boss 88 on the rod l5. The support lever 85 carries respective rollers 89 (Figures 4, 5 and 6) for engagement with the vertical ange of the L-shaped cam 113B, as seen in Figure 3, and to thereby control the path of ytravel of the paper pickup and sealing supportplate 8|.

The purpose of the yieldable support of this plate 8| by means of the spring Si is for the purpose of allowing the path of travel of these various plates 8| along the wrapping and heat sealing path to vary in accordance with the size of the bundle of broccoli with which they are associated. rIhis will be apparent from the later description of the operation of the apparatus.

Each wrapping pocket also includes a strip wrapping bar 9'5 (Figures 3 and 6) which is car-- ried in upright position at the end of a support arm Sl. The arm 91 (Figures 6 and 8) is joui'- nalled by a shaft 98 in spaced bosses Sila, on the plate 86 and bracket 68, respectively. At its lower end the shaft 58 carries a V-pulley 93 for engagement with a stationary stretch of V-belt |ll| (Figures 3 and 2b). The shaft 98, arm Sl and rod 95 are spring-urged clockwise, as viewed in Figure 6, by a spring |02 to contact the arm Si' with the vertical support 83 for the pickup plate 8|. If desired, a suitable stop pin may be provided on the plate |56 for the arm S7. During the travel of a wrapping pocket past the belt i5 the wrap bar or rod 96 will be carried counterclockwise, as viewed in Figure 6, from the position thereof shown in full lines to the position thereof shown in dotted lines. As will be described more fully hereinafter, this serves to carry the strip of wrapping material or tape around the bunch of broccoli after it has been picked up by the support plate 8| and its irnpaling pins 82.

After the strip of wrapping material has been placed around the bunch of broccoli, a strip holding arm is brought into play, and this strip holding arm |06 (Figures 3 and 6) is provided with a vertical strip-engaging end portion la (Figure asas-,wig-

3.)". and .oifset downwardly from the .upper hori. zonta'l portion of the arm |06 .at'its point -of fat-- tachment to a collar |61. VClollar |01 is secured on an upright supporting sleeve |08 pivotally mounted above a vcollar ||6 .on an upright rod I 09 .secured in stationary fashion .on the horizontal support plate .66. A torsion spring is connected between the plate 66 and an arm I i2 on the sleeve Ici! to urge-.the strip holding arm |06 countercloclrwise as viewed in Figure 6. Such movement .of this arm is normally restrained by the engagement of a T-shaped latch |I3 (Figure 7) engaging an arm Iii-secured to the sleeve |58 (Figures 3 and 6). The latch I I3 (Figure 7) is pivoted at I I 6 on an upper extension of the support plate 6| and is urged to active position by a spring ||1 extending between one arm of the T- shaped latch I I3 and a support on the extension 6|a of the support plate 6|.

In order to control the release of the latch I I3 for the paper strip-holding arm |56, a control roller IIB (Figures 3 and 2b) is mounted by a bracket ||8a on the frame in position to engage the upstanding arm of the T-shaped latch .I I3 at the appropriate time to rock it and release the arm |06 for swinging to active position under control of its spring I i I. To effect re-latching of the arm |56, a second roller ||9 is carried by a frame bracket I I3@ in position to be engaged by the arm |I4 associated with each holding arm |06 and move the arms |33 and IIIi to inactive position, the arm IIi being re-engaged by the latch ||3.

In order to understand the operation of the various portions of the wrapping pockets in applying the wrap to a bunch of broccoli, the various cooperating units associated therewith will now be described.

Tape feed unit The tape feed unit, as illustrated in Figures 1, Zajand l2 through 16, comprises means for forming the tape or strip to the desired conguration, i. e., folding over the edges of the strip to provide a double thickness of material at each edge for re-inforcing purposes and to bring into play at a desired time under control of the successive wrapping pockets a perforating device to provide a point of severance between adjacent wraps for bundles. As shown in Figure 2a, the strip of wrapping material 3:1 is impaled and being driven by the points 32 of the uppermost wrapping unit 28 and is trained about the respective rolls and folding elements of the feeding unit. From the roll 35 of material shown in Figure l, the strip 34 extends over a anged idler roll I2I (Figures 2a and 14) which is journalled on an upright shaft 22 on the frame plate |23 of the feeding unit. This frame plate |23 is suitably supported on the frame of the machine. From the roll I2I the strip 34 enters a pair of forming rolls |24 and |26, roll |211 having frustofconical ends at either side of a pair of crimping lips |24a which vengage with cooperating crimping grooves |2611 below the frusto-conical ends of the roll |26. The roll |24 is mounted in stationary position on the frame I 23 on a suitable journal stud I 21 while the roll |26 is carried on a stud'I28 supported on a bar |23 which is urged counterclockwise, as viewed in Figure 2a, by a spring I3I (Figure 14) to engage the roll |26 with the roll |24.

The strip 34with its crimped edges leaves the rolls |24V and |26 and engages an edge folding plate I3I` mounted on a support |32 and having rolled edgesV I3 Ia which converge toward the discharge end and wh-ich serve to complete the fold- 6. ing'of the edge portions to narrow lthe vstrip and to provide double-thickness reinforcing portions at its edges. From the forming plate I3I the strip 34 with its folded edges passes over an idler roll |33 journalled on .an upright shaft |34 and passes into engagement with a pair of perforating rolls |36 and |31. A second idler roll |33 on shaft |54 receives the strip from the rolls |36 and |31. The respective rolls |36 and |31 are secured .on respective shafts |38 and |39 (Figure 12) journalled by respective sets of bearings |4| in plate |23 and an upper plate |42 supported on the plate |23. As seen in Figure 16, the roll |31 is notched at I31a and the roll |36 carries a perforating knife |43 secured therein by a set screw |44. The knife|43 and its relation to the folded strip 34 is shown in Figure 15, the, knife being continuous at its ends to cut through the folded edges of the strip while performing a perforating operation intermediate these folded edges.

In order to provide time rotation of the rolls |36 and |31, the shafts |38 and |35 carry respective meshing gears Ii and |51 secured thereon. The rotation of these gears and the rolls |36 and |31 is under the control of a clutch arrangement so that normally the tape is sliding between the rolls under the drive of the preceding wrapping pocket until the desired time for perforation of the strip in connection with the next pocket to pick up the tape. The strip 3d being drawn between rolls |36 and |31 tends to turn them in the direction indicated by the arrows in Figure 2c., but such action is restrained by the engagement of a stop pin |55 (Figures 12 and 13) carried by the gear |I1 with a clutch dog |52 on an arm |53 pivoted at |54 and urged counterclockwise by a spring |56. An adjustable stop screw |51 is provided to control the timing of these parts. The lever |53 carries a control roller |58 (Figures l2 and 13). The roller |55 is positioned in the path of the horizontal plate 66 of a pocket to be engaged thereby and release the rolls |36 and |31 for rotation so that they will turn one revolution, perforate the paper in the center, cut the edges, and again be stopped in the position shown in Figure 2a by the stop lever |53 and its lug |52 as shown.

This operation provides for perforating or providing a weakened line of severance between each length of wrapping with respect to each pocket so that there is no possibility of incremental error in the length of Wrap increasing from perforation to perforation as would be the case 'if the rolls |35 and |31 turned continuously, and were not timed in their operation by the pockets themselves.

As seen in Figure 2a, the pins 62 of the pocket adjacent the feed unit are approaching the strip 3d to pick up the drive of the strip, and a weakened section or perforation has just been made at 34a., the rolls |36 and |31 will ccntinue in rotation until the pin I 5| again engages the stop 52 therefor. The pocket 29 at the tcp of Figure 2a is approaching a strip securing and folding station which the leftmost pocket 2d in Figure 2b has just passed.

Strip securing and severing stations Referring to Figures 2b, lo and 1l, there is provided a set of three strip folding arms IE6 on a sleeve |51 journaled on an upright stud |63 on a support bracket |65. Respective collars E13 on the stud |66 serve to locate the sleeve E61 and the arms |66. The sleeve |51 and the folding arms |665 are urged clockwise as viewed in Figure 11 by a torsion spring |1I. The sleeve |61 (Figure ll) carries an ear |12 which is engaged by a latch arm |13 carried by a sleeve |14. The sleeve I'M is journaled on an upright shaft stud |75 between collars llt and is urged clockwise by a spring |71 so that its trip arms |18 lie in the path of the strip support plate 8i of each pocket to be engaged thereby during travel through this station. Upon such engagement the trip arms |18 are rocked to release the latch |13 so that the strip folding arms IE are rocked clockwise by the spring |l| from their full line to their dotted line positions as shown in Figure 11, to secure the strip 34 on the pins 82. Subsequent travel of this wrapping pocket moves the arms |86 back to their normal position and allows re-engageinent of the latch W3 with the ear |12.

Just before this strip securing or impaling operation occurs in connection with one pocket 28, this strip is severed from the preceding strip by means of an impact bail |81 (Figures 2h and 9) carried on a sleeve |82 journaled on an upright stud l83 between collars |84 thereon. The stud |83 is suitably carried by a support bracket |85 on the machine frame. The sleeve 82 is urged clockwise by a spring |86 for engagement of a horizontal arm |82 to a position determined by the engagement of the horizontal arm |81 on the tube |82 with a stop pin |88 carried on the lower collar |84. As a Wrapping unit pocket approaches the paper severing unit shown in Figure 2b the horizontal arm |81 is engaged by the support bar S3 of the unit to cock the severing bail |8| which is subsequently released to strike the paper strip 311 immediately rearwardly of or adjacent a perforated section 34a thereof to sever the paper. It will be noted in Figure 9 that the bail is inclined with respect to its support axis to place the upper portion thereof in leading position during impact on the strip. One length of the strip Tilt is then carried by a wrapping unit as shown in Figure 2b.

Subsequently, as described in detail in the operation, this strip of paper is wrapped around an associated bunch of broccoli by the bar 98 and is engaged and held in position by the holding or clamping member l05 as shown at the top of Figure 2b, before the paper wrapping unit becomes engaged with the heat sealing and strip tightening means.

Heat sealing cmd strip tightening unit This unit comprises a pair of thin flexible metal strips 205 (Figures 2b, 2c, 17 and 18) of suitable heat conducting material such as brass extending between respective floating end brackets 2 iii (Figure 2b) and 21811 (Figure 2c). The strips 20| are in abutting relation and are mounted yieldably on the bunching unit so as to flex in wave fashion as different size bunches travel therealong. The first or left-hand portion of the strips 28| comprise a heating section and has a plurality of tubular electrical heat units 203 of conventional construction secured on the inner strip in vertical position by brazing. Certain of these elements are engaged by yieldable support means in the form of heat-insulated U-clamps 205 held by a pin 20'! at the end of a support rod 258. Each support rod 208 is provided with a collar engaged by a spring 2 l! compressed between the collar and a support member 2|2 extending along t'ne frame of the launching machine. A retaining pin 2l@ (Figure 18) is provided in each support rod 28S, and each rod 288 is engaged loosely by the member 2 i2 to allow universal pivoting movement and 'accommodate limited endwise movement of the heating strips. As seen in Figures 2b and 2c, there are nine heater units 203 along the heating portion of the strips 28| and four such units are mounted on support rods 208. The endmost unit 203 to the right (Figure 2c) is mounted by heat-insulated U-clamps 20511 (Figures 19 and 20) secured at the ends of a support rod 20811 slidable in a bearing block 2 i8 which is pivoted on a pin 2 ll secured by welding to plates 2 |8a which are bolted on the frame member 2 I2.

The right-hand portion of the strips 20| provide a cooling section along which a plurality of support tubes 2li! are brazed to the inner strip 20| for mounting on supports 208 and 208a in the same fashion as the heater units 203 but without heat insulation.

At the end of the travel of a wrapped bunch along the strips 20|, a bar 220 is mounted on the bunching unit and projects into the path of the support bar 83 of the plate 8|. Thus the plate 8| and its support members are rocked counterclockwise by the bar 220 (Figure 2c) to withdraw the plate 8| and pins 82 from the sealed wrapping strip. This occurs just as the trailing roller 89 is riding down the end portions 48a of the cam track 48. Subsequently the control roller Il of the pocket engages a cam track portion 41a of the track 4l. An opposed track section 229 carried by plate 229e assists in controlling the roller ll.

Branching unit As previously stated, the bunching unit as disclosed herein is identical in construction and mode of operation with that disclosed in the copending application of Magnuson and Daugherty referred to above. Briefly referring to Figure 3, each clamping pocket or bunching pocket 2| of the endless series of such devices comprises spring-urged jaw means 222 carried by a support tube 223 for in and out sliding movement on the frame 224 of the bunching unit under the control of a cam track 226 with which a roller 221 engages. A bunch of broccoli 228 indicated as being held by the clamping pocket in Figure 3 will have a spacing with respect to the frame 224 of the bunching unit depending upon the exact size of bunch and depending upon the consequent travel of the clamping means 222 in engaging the bunch. It will be noted that this bunching pocket 2| is in overlying vertically aligned relation with respect to an associated wrapping unit pocket 28 and is travelling along the same path at the same rate of speed.

For further details of construction of the bunching unit and its pocket reference is made to said copending application.

OPERATION Referring to Figure 1, as previously stated, the broccoli is taken from the circulating conveyor 24 by operators at the station A and is fed to the open bunching pockets 2| which are travelling generally counterclockwise as viewed in Figure l. Subsequently, these pockets are closed as indicated toward the left portion of their travel to compact the bunches before they are carried through a cut-off or butt trimming saw 26, all as disclosed in said application. After the bunches of broccoli in the pockets `2| travel around the sprocket 22 they enter their coincident path of travel with the pockets 28 of the wrapping unit which travel generally clockwise as viewed in Figure 1.

As the pockets or wrapping devices of the wrapping unit 28 travel past the tape or strip feedmechanism33, thepinslaz of each- Wrapping .pocket-pick up and travel. thisstrip. through the perforatingmeans, with. therelease of the perforatin-g rolls |36 and. |3'1vfor travel with the strip being controlled .by each pocket as ittrips the clutch control lever- |53. As a result the perforation of each individual stripor wrap ofthe entire tape isA effected with respect toa particular pocket. .It Will benoted that as the pockets-28 start theirtravel aroundV theend of the machine associated with the sprocketZB they are relatively accelerated in speed so .astobe spaced apart a greater extentduring such travel. This enables the picking up of the proper length of tape or Wrapping strip for each-pocket. i-n this region.

It will .be noted in Figure 2a that the pins 32 .of a pocket are only partially impaling the strip shown in Figure 2b has operated to impact the.

bail |31- against thetape 34 adjacent a perforated portion 34a thereof to separate the previous Wrapping strip from the continuous ltape .as shown at the upper left-hand portion of. Figure 2b. As a result thefreeiend ofthe strip can be folded back over the plate 8| as described above.

AsI a result of these operations the second pocket from the left in Figure. 2b, which is irnmed-iately beyond the stripfsevering station, and the preceding prockets which have travelled past this point have associated therewith` a wrapping strip which is securely impaled on vthe-pins 82 of the support plate 8| for travel therewith with the short end of thestripadjacentthe outer portion of the plate vEiland the long portion of the strip trailing from the. inner. portion thereof and overlapping the wrapping rod'96 of this pocket. When the pocket is travelling. past the stationary v-belt segment |0|, the pulleyf99- engages and is rotated by this segment to rotate the shaft 93, the arm 9-1 and thewrapping rod or element 9B thereon counterclockwise as viewed-in the. drawings so that it moves from. itsful-l-.line position in Figure d toits dotted l-ine position. The movementof the rod 96. carriesthe. strip of material around the bunch of broccoli to place both` ends of the strip outermost with. respect to the wrapping pocket. Immediately thereafter the strip of the pocket, as shown atthe. secon-dpocket from the right. in Figure. 2b, is .engaged vby the. holding arm 06 so that the Wrapping rod orelement d6 can be immediately returned by its spring to its inactive'- position. `This operation positions the ends of the strip for tightening and sealing.

Thereafter the wrapping device-and the aligned hurruzhingv pocket enter the aoneof Wrap .tightem ing and heat sealing. Thefree projecting end of .the wrappingstrip 34, as shown in thev right- .most .pocket in Figureb., .engagesthe inclined feed end of the heating strips 20| and engages withthe other end ofthe strip impaled on the pins 32 so that the two ends of the strip are placed in overlapping relation between the plate 8! and the strips 201.

The first action 'of these heating strips 20| is .10 a pulling action on the free end of the wrap 34 so that it is pulled tightly around the bunch of broccoli. This action will occur before sufficient heating of the wrap to perform any heat sealing operation. Subsequently, as the support plate 8| of a pocket travels along `the heating strips 20| with the overlapped ends of the wrap interposed between it and the heating strips, the ends of the Wrap are heated so that a heat seal is performed. The exible or floating mounting of the strips 20l accommodates them to different sizes of broccoli bunches as shownby the varying sizes of the bunches indicated in Figures 2b and 2c, and the strips 20| float in wave fashion lto accommodate the various sizes.

After the pockets have travelled along the heating zone thereof, the remaining length of the strips 20| serve to extract heat and cool .the heat sealed ends. ofthe wrapping to a temperature below that at which separation could occur.

As the pockets leave the strips 20|, the rollers .controlling vthe position of the support and heat seal plate 8| leave their controlling track 40, as seen in Figure 2c,.so` that .the .support plate 5| is rocked counterclockwise Yas indicated in the drawings to withdraw the plate .8| from engagement with the Wrapping strip. As. a. result the wrapped bunch .of `broccoli is free to travel on with the pockets of the bunching unit to their point of dischargeover the discharge conveyor 25 as shown in Figure. l.

While we have shown .and described a preferred embodiment of the invention, it will be apparent that the invention is capable of .further variation and modiiication. and its scope shouldbe limited only by the scope of the claims Yappended hereto.

We claim:

l.. In vegetable bunching and wrapping apparatus a bunching conveyor comprising, an endless series of pocket devices for holding bunchesof vegetable articles, awrapping unit .including a vwrapping conveyor comprising .an endless .series of. Wrapping devices havinga stretch thereof in overlapping. relation with a stretch. of the pocket devices, and means for driving. said respective series of devices in timed relation so that the overlapped stretches thereof travel at the. same speed, and wrapping means carried by each` of .said wrapping devices for supplying and applying an individual wrap to the bunch in each one of the .pocket devices during travel along said overlapped stretches.

2. In vegetable bunching and wrappingapparatus a bunchingconveyor comprising., an endless .series of pocket devices for holding bunches of vegetable articles, a wrapping unit including a wrapping conveyor comprising an endless series of Wrapping devices having a stretch thereofzin overlapping relation with a stretch of the pocket devices, and means for driving said respective series of devices in timed relation so that the overlapped stretches thereof travel at vthe samespeed, each wrapping device including a yieldably overlapping relation With a stretch of the pocket devices, means for driving said respective series of devices in timed relation so that the overlapped stretches thereof travel at the same speed, means for supplying a continuous strip of Wrapping material to said Wrapping devices, and means for severing said strip into individual Wraps after pick-up thereof by the Wrapping devices.

4. In vegetable launching and wrapping apparatus, a bunching conveyor comprising, an endless series of pocket devices for holding bunches of vegetable articles, a wrapping unit including a Wrapping conveyor comprising an endless series of Wrapping devices having a stretch thereof in overlapping relation with a stretch oi' the pocket devices, means for driving said respective series of devices in timed relation so that the overlapped stretches thereof travel at the same speed, and means for supplying a continuous strip of Wrapping material to said Wrapping devices including means controlled by each Wrapping device for weakening said strip at a desired line of severance for an individual Wrap.

5. In vegetable bunching and Wrapping apparatus a bunching conveyor comprising, an endless series of pocket devices for Aholding bunches of vegetable articles, a wrapping unit including a Wrapping conveyor comprising an endless series of wrapping devices having a stretch. thereof overlapping a stretch of the pocket devices, and means for driving said respective series of devices in timed relation so that the overlapped stretches thereof travel at the same speed, each said wrappingdevice including a vvrap support element having Wrap impaling means thereon.

6. In vegetable bunching and Wrapping apparatus a bunching conveyor comprising, an endless series of pocket devices for holding bunches of vegetable articles, a Wrapping unit including a wrapping conveyor comprising an endless series of Wrapping devices having a stretch thereof overlapping a stretch of the pocket devices, and means for driving said respective series of devices in timed relation so that the overlapped stretches thereof travel at the same speed, each said wrapping device including a yieldaloly mounted wrap support element having wrap impaling means thereon and supported on the associated Wrapping device for swinging movement from an inactive position to active position alongside a bunch of vegetables in one of said pocket devices to place the Wrap in operative relation with respect thereto.

'7. In vegetable punching and wrapping apparatus a bunching conveyor comprising, an endless series of pocket devices for holding bunches of vegetable articles, a wrapping unit including a Wrapping conveyor comprising an endless series of wrapping devices having a stretch thereof overlapping a stretch of the pocket devices, means for driving said respective series of devices in timed relation so that the overlapped stretches thereof travel at the same rate of speed, and wrapping means associated with each of said Wrapping devices including means for supporting one end of a wrap adjacent the bunch in the associated pocket device, and means for traversing the Wrap around the bunch during travel along said overlapped stretch to place the ends of the wrap in overlapping relation.

8. In vegetable punching and wrapping apparatus a bunching conveyor comprising, an endless series of pocket devices for holding bunches of vegetable articles, a wrapping unit including a wrapping conveyor comprising an endless series of wrapping devices having a stretch thereof overlapping a stretch of the pocket devices, means for driving said respective series of devices in timed relation so that the overlapped stretches thereof travel at the same rate of speed, wrapping means associated With each of said Wrapping devices including means for supporting one end of a wrap adjacent the bunch in the associated pocket device, means for traversing the wrap around the bunch during travel along said overlapped stretch to place the ends of the wrap in overlapping relation, and heat sealing means for enga-ging said overlapped ends.

9. In vegetable bunching and Wrapping apparatus a bunching conveyor comprising, an endless series of pocket devices for holding bunches of vegetable articles, a wrapping unit including a wrapping conveyor comprising an endless series of wrapping devices having a stretch thereof overlapping a stretch of the pocket devices, means for driving said respective series of devices in timed relation so that the overlapped stretches thereof travel at the same rate oi speed, Wrapping means associated with each of said wrapping devices including means for supporting one end of a wrap adjacent the bunch in the associated pocket device, means for traversing the Wrap around the bunch during travel along said overlapped stretch to place the ends of the wrap in overlapping relation, and stationary heat sealing means along said stretch for engaging said overlapped ends to first effect tightening or said wrap and to thereafter eiect heat sealing of said overlapped ends.

10. In a vegetable bunching and wrapping apparatus, the combination of a `enriching unit comprising a bunching conveyor including an endless series of pocket devices for holding bunches, and a Wrapping unit including a wrapping conveyor comprising an endless series of Wrapping devices having a stretch thereof in cooperative relation with a stretch of said pocket devices with the respective devices in alignment with each other, each of said devices including means for applying a wrap to the bunch in the associated pocket device, the wrapping devices of said wrapping unit being yieldably mounted to accommodate a slight misalignment of the pocket devices along the path of travel, and a oating heat seal unit extending along a portion of said stretch for securing the wrapping on each one of the bunches passing thereby.

11. In a vegetable bunching and Wrapping apparatus, the combination oi a bunching unit comprising a launching conveyor including an endless series of pocket devices for holding bunches, and a wrapping unit including wrapping conveyor comprising an endless series of Wrapping devices having a stretch thereof in cooperative relation vvith a stretch of said pocket devices with the respective devices in alignment with each other, each ci said devices including means for applying a Wrap to the bunch in the associated pocket device, the wrapping devices of said wrapping unit being yieldably mounted to accommodate a slight misalignment oi the pocket devices along the path of travel.

l2. In a vegetable bunching and Wrapping apparatus, the combination of a bunching unit comprising a punching conveyor including an endless series of pocket devices ior holding bunches, and a wrapping unit including a Wrapping conveyor comprising an endless series ci Wrapping devices having a stretch thereof in cooperative relation With a stretch of said pocket devices with the respective devices in alignment with each other, each wrapping device including means for holding a strip of Wrapping material around a bunch in the associated pocket with the ends thereof in engagement, and heat sealing means extending along a portion of said stretch for engaging said ends to secure the wrapping to each one of the bunches passing thereby.

13. In a vegetable bunching and Wrapping apparatus, the combination of a bunching unit comprising a bunching conveyor including an endless series of pocket devices for holding bunches, and a Wrapping unit including a wrapping conveyor comprising an endless series of Wrapping devices having a stretch thereof in cooperative relation with a stretch of said pocket devices with the respective devices in alignment with each other, each wrapping device including means for holding a strip of wrapping material around a bunch in the associated pocket with the ends thereof in engagement, and heat sealing means extending along a portion of said stretch for slidably engaging said ends to rst tighten the Wrapping about the bunch and then to secure the wrapping to each one of the bunches passing thereby.

14. In a vegetable bunching and wrapping apparatus, the combination of a bunching unit comprising a bunching conveyor including an endless series of pocket devices for holding bunches, and a Wrapping unit including a wrapping conveyor comprising an endless series of wrapping devices having a stretch thereof in cooperative relation with a stretch of said pocket devices with the respective devices in alignment with each other, each wrapping device including means for holding a strip of Wrapping material around a bunch in the associated pocket with the ends thereof in engagement, a yieldably mounted iieXible strip extending along saidstretch, and heating means for a portion of said strip.

15. In a bunching and wrapping apparatus, an endless series of wrapping devices, means for carrying said devices along their path of travel including means for iirst accelerating and then decelerating each unit along a portion of said path, a wrapping feed mechanism for supplying a strip of wrapping material to the devices with the strip disposed along said portion of the path of said devices for pick-up thereby, each of said devices including a member for picking up and advancing said strip of wrapping material through said feed mechanism, means controlled by each of said devices for indicating the point of cut off of the strip for the desired length to wrap a bunch, and strip severing means disposed adjacent said devices in said path portion, said severing means being operative under control of each of said devices.

16. In a bunching and wrapping apparatus, an endless series of Wrapping units, a wrapping feed mechanism for supplying a strip of wrapping material to the devices with the strip disposed along the path of said devices for pick-up thereby, each of said devices including a member for picking up said strip of Wrapping material from said feed mechanism, means controlled by each of said devices for weakening said strip of material along a transverse line at the point of cut off of the ina- .terial for the desired length to Wrap a bunch,

and means controlled by said devices for impacting said strip of material to separate the strip successively at said weakened transverse lines.

17. In a bunching and wrapping apparatus, an endless series of Wrapping devices, awrapping feed mechanism for supplying a strip of wrapping material disposed along the path of said devices, each of said devices including a member for picking up and advancing said wrapping material through said feed mechanism, and means controlled by each of said devices for indicating the point of cut off of the material for the desired length to wrap a bunch, said feed mechanism including normally inactive perforating means frictionally engaging said wrapping material and means controlled by each of said devices for trip-- ping said perforating means for operation in the correct timed relation to said series of devices.

18. In apparatus for the binding and wrapping of a vegetable such as broccoli or the like, a continuously movable endless conveyor having a plurality of individual wrapping devices, each of said Wrapping devices including a pocket for holding a bunch of said vegetable and a wrapping mechanism associated with said pocket, means for supplying a continuous strip of material to be Wrapped about successive bunches of said vegetable, means for severing such strip into individual wrappers; each of said wrapping mechanisms having means to pick up the continuous strip of wrapping material as the mechanism is moved past a predetermined location and before the strip is severed, and each of said wrapping mechanisms also having means to wrap the individual severed Wrapper about the vegetable bunch in the pocket associated therewith; a second continuously movable endless conveyor having a plurality of pockets adapted to hold bunches of said vegetables and also having a stretch thereof in overlapping relation with a stretch of said first mentioned conveyor; and means for driving said conveyors in timed relationship so that the pockets on the overlapped stretches thereof register and travel at the same speed.

References Cited in the le of this patent UNITED STATES PATENTS Number Name Date v996,187 Wilson June 27, 1911 1,016,067 Fisher Jan. 30, 1912 1,454,555 Nielsen May 8, 1923 1,464,332 Pease Aug. 7, 1923 1,629,525 Parsons May 24, 1927 1,653,908 Hunt Dec. 27, 1927 1,875,979 Beutel Sept. 6, 1932 1,969,160 Slusher Aug. 7, 1934 1,992,463 Berger Feb. 26, 1935 2,082,408 Lyons June 1, 1937 2,090,559 Strauss Aug. 17, 1937 2,109,505 Rue Mar. 1, 1938 2,110,815 Parsons Mar. 8, 1938 2,113,239 Petskeyes Apr. 5, 1938 2,119,670 Fitz Gerald June 7, 1938 2,162,472 Scharf June 13, 1939 2,180,349 DeBack Nov. 21, 1939 2,195,222 Neumair Mar. 26, 1940 2,219,809 Davis Oct. 29, 1940 2,262,991 DArrigo Nov. 18, 1941 2,342,584 Hoppe Feb. 22, 1944 2,383,664 Malhoit Aug. 28, 1945 2,397,190 Malhoit Mar. 26, 1946 2,486,892 Sumida Nov. 1, 1949 

